(** THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS *) (** [hashmap]: function definitions *) open primitivesLib divDefLib open hashmap_TypesTheory val _ = new_theory "hashmap_Funs" val hash_key_fwd_def = Define ‘ (** [hashmap::hash_key]: forward function *) hash_key_fwd (k : usize) : usize result = Return k ’ val [hash_map_allocate_slots_loop_fwd_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::allocate_slots]: loop 0: forward function *) hash_map_allocate_slots_loop_fwd (slots : 't list_t vec) (n : usize) : 't list_t vec result = if usize_gt n (int_to_usize 0) then ( do slots0 <- vec_push_back slots ListNil; n0 <- usize_sub n (int_to_usize 1); hash_map_allocate_slots_loop_fwd slots0 n0 od) else Return slots ’ val hash_map_allocate_slots_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::allocate_slots]: forward function *) hash_map_allocate_slots_fwd (slots : 't list_t vec) (n : usize) : 't list_t vec result = hash_map_allocate_slots_loop_fwd slots n ’ val hash_map_new_with_capacity_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::new_with_capacity]: forward function *) hash_map_new_with_capacity_fwd (capacity : usize) (max_load_dividend : usize) (max_load_divisor : usize) : 't hash_map_t result = let v = vec_new in do slots <- hash_map_allocate_slots_fwd v capacity; i <- usize_mul capacity max_load_dividend; i0 <- usize_div i max_load_divisor; Return (<| hash_map_num_entries := (int_to_usize 0); hash_map_max_load_factor := (max_load_dividend, max_load_divisor); hash_map_max_load := i0; hash_map_slots := slots |>) od ’ val hash_map_new_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::new]: forward function *) hash_map_new_fwd : 't hash_map_t result = hash_map_new_with_capacity_fwd (int_to_usize 32) (int_to_usize 4) (int_to_usize 5) ’ val [hash_map_clear_loop_fwd_back_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::clear]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_clear_loop_fwd_back (slots : 't list_t vec) (i : usize) : 't list_t vec result = let i0 = vec_len slots in if usize_lt i i0 then ( do i1 <- usize_add i (int_to_usize 1); slots0 <- vec_index_mut_back slots i ListNil; hash_map_clear_loop_fwd_back slots0 i1 od) else Return slots ’ val hash_map_clear_fwd_back_def = Define ‘ (** [hashmap::HashMap::{0}::clear]: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_clear_fwd_back (self : 't hash_map_t) : 't hash_map_t result = do v <- hash_map_clear_loop_fwd_back self.hash_map_slots (int_to_usize 0); Return (self with <| hash_map_num_entries := (int_to_usize 0); hash_map_slots := v |>) od ’ val hash_map_len_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::len]: forward function *) hash_map_len_fwd (self : 't hash_map_t) : usize result = Return self.hash_map_num_entries ’ val [hash_map_insert_in_list_loop_fwd_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::insert_in_list]: loop 0: forward function *) hash_map_insert_in_list_loop_fwd (key : usize) (value : 't) (ls : 't list_t) : bool result = (case ls of | ListCons ckey cvalue tl => if ckey = key then Return F else hash_map_insert_in_list_loop_fwd key value tl | ListNil => Return T) ’ val hash_map_insert_in_list_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::insert_in_list]: forward function *) hash_map_insert_in_list_fwd (key : usize) (value : 't) (ls : 't list_t) : bool result = hash_map_insert_in_list_loop_fwd key value ls ’ val [hash_map_insert_in_list_loop_back_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::insert_in_list]: loop 0: backward function 0 *) hash_map_insert_in_list_loop_back (key : usize) (value : 't) (ls : 't list_t) : 't list_t result = (case ls of | ListCons ckey cvalue tl => if ckey = key then Return (ListCons ckey value tl) else ( do tl0 <- hash_map_insert_in_list_loop_back key value tl; Return (ListCons ckey cvalue tl0) od) | ListNil => let l = ListNil in Return (ListCons key value l)) ’ val hash_map_insert_in_list_back_def = Define ‘ (** [hashmap::HashMap::{0}::insert_in_list]: backward function 0 *) hash_map_insert_in_list_back (key : usize) (value : 't) (ls : 't list_t) : 't list_t result = hash_map_insert_in_list_loop_back key value ls ’ val hash_map_insert_no_resize_fwd_back_def = Define ‘ (** [hashmap::HashMap::{0}::insert_no_resize]: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_insert_no_resize_fwd_back (self : 't hash_map_t) (key : usize) (value : 't) : 't hash_map_t result = do hash <- hash_key_fwd key; let i = vec_len self.hash_map_slots in do hash_mod <- usize_rem hash i; l <- vec_index_mut_fwd self.hash_map_slots hash_mod; inserted <- hash_map_insert_in_list_fwd key value l; if inserted then ( do i0 <- usize_add self.hash_map_num_entries (int_to_usize 1); l0 <- hash_map_insert_in_list_back key value l; v <- vec_index_mut_back self.hash_map_slots hash_mod l0; Return (self with <| hash_map_num_entries := i0; hash_map_slots := v |>) od) else ( do l0 <- hash_map_insert_in_list_back key value l; v <- vec_index_mut_back self.hash_map_slots hash_mod l0; Return (self with <| hash_map_slots := v |>) od) od od ’ val [hash_map_move_elements_from_list_loop_fwd_back_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::move_elements_from_list]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_move_elements_from_list_loop_fwd_back (ntable : 't hash_map_t) (ls : 't list_t) : 't hash_map_t result = (case ls of | ListCons k v tl => do ntable0 <- hash_map_insert_no_resize_fwd_back ntable k v; hash_map_move_elements_from_list_loop_fwd_back ntable0 tl od | ListNil => Return ntable) ’ val hash_map_move_elements_from_list_fwd_back_def = Define ‘ (** [hashmap::HashMap::{0}::move_elements_from_list]: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_move_elements_from_list_fwd_back (ntable : 't hash_map_t) (ls : 't list_t) : 't hash_map_t result = hash_map_move_elements_from_list_loop_fwd_back ntable ls ’ val [hash_map_move_elements_loop_fwd_back_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::move_elements]: loop 0: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_move_elements_loop_fwd_back (ntable : 't hash_map_t) (slots : 't list_t vec) (i : usize) : ('t hash_map_t # 't list_t vec) result = let i0 = vec_len slots in if usize_lt i i0 then ( do l <- vec_index_mut_fwd slots i; let ls = mem_replace_fwd l ListNil in do ntable0 <- hash_map_move_elements_from_list_fwd_back ntable ls; i1 <- usize_add i (int_to_usize 1); let l0 = mem_replace_back l ListNil in do slots0 <- vec_index_mut_back slots i l0; hash_map_move_elements_loop_fwd_back ntable0 slots0 i1 od od od) else Return (ntable, slots) ’ val hash_map_move_elements_fwd_back_def = Define ‘ (** [hashmap::HashMap::{0}::move_elements]: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_move_elements_fwd_back (ntable : 't hash_map_t) (slots : 't list_t vec) (i : usize) : ('t hash_map_t # 't list_t vec) result = hash_map_move_elements_loop_fwd_back ntable slots i ’ val hash_map_try_resize_fwd_back_def = Define ‘ (** [hashmap::HashMap::{0}::try_resize]: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_try_resize_fwd_back (self : 't hash_map_t) : 't hash_map_t result = do max_usize <- mk_usize (u32_to_int core_u32_max); let capacity = vec_len self.hash_map_slots in do n1 <- usize_div max_usize (int_to_usize 2); let (i, i0) = self.hash_map_max_load_factor in do i1 <- usize_div n1 i; if usize_le capacity i1 then ( do i2 <- usize_mul capacity (int_to_usize 2); ntable <- hash_map_new_with_capacity_fwd i2 i i0; (ntable0, _) <- hash_map_move_elements_fwd_back ntable self.hash_map_slots (int_to_usize 0); Return (ntable0 with <| hash_map_num_entries := self.hash_map_num_entries; hash_map_max_load_factor := (i, i0) |>) od) else Return (self with <| hash_map_max_load_factor := (i, i0) |>) od od od ’ val hash_map_insert_fwd_back_def = Define ‘ (** [hashmap::HashMap::{0}::insert]: merged forward/backward function (there is a single backward function, and the forward function returns ()) *) hash_map_insert_fwd_back (self : 't hash_map_t) (key : usize) (value : 't) : 't hash_map_t result = do self0 <- hash_map_insert_no_resize_fwd_back self key value; i <- hash_map_len_fwd self0; if usize_gt i self0.hash_map_max_load then hash_map_try_resize_fwd_back self0 else Return self0 od ’ val [hash_map_contains_key_in_list_loop_fwd_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::contains_key_in_list]: loop 0: forward function *) hash_map_contains_key_in_list_loop_fwd (key : usize) (ls : 't list_t) : bool result = (case ls of | ListCons ckey t tl => if ckey = key then Return T else hash_map_contains_key_in_list_loop_fwd key tl | ListNil => Return F) ’ val hash_map_contains_key_in_list_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::contains_key_in_list]: forward function *) hash_map_contains_key_in_list_fwd (key : usize) (ls : 't list_t) : bool result = hash_map_contains_key_in_list_loop_fwd key ls ’ val hash_map_contains_key_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::contains_key]: forward function *) hash_map_contains_key_fwd (self : 't hash_map_t) (key : usize) : bool result = do hash <- hash_key_fwd key; let i = vec_len self.hash_map_slots in do hash_mod <- usize_rem hash i; l <- vec_index_fwd self.hash_map_slots hash_mod; hash_map_contains_key_in_list_fwd key l od od ’ val [hash_map_get_in_list_loop_fwd_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::get_in_list]: loop 0: forward function *) hash_map_get_in_list_loop_fwd (key : usize) (ls : 't list_t) : 't result = (case ls of | ListCons ckey cvalue tl => if ckey = key then Return cvalue else hash_map_get_in_list_loop_fwd key tl | ListNil => Fail Failure) ’ val hash_map_get_in_list_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::get_in_list]: forward function *) hash_map_get_in_list_fwd (key : usize) (ls : 't list_t) : 't result = hash_map_get_in_list_loop_fwd key ls ’ val hash_map_get_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::get]: forward function *) hash_map_get_fwd (self : 't hash_map_t) (key : usize) : 't result = do hash <- hash_key_fwd key; let i = vec_len self.hash_map_slots in do hash_mod <- usize_rem hash i; l <- vec_index_fwd self.hash_map_slots hash_mod; hash_map_get_in_list_fwd key l od od ’ val [hash_map_get_mut_in_list_loop_fwd_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::get_mut_in_list]: loop 0: forward function *) hash_map_get_mut_in_list_loop_fwd (ls : 't list_t) (key : usize) : 't result = (case ls of | ListCons ckey cvalue tl => if ckey = key then Return cvalue else hash_map_get_mut_in_list_loop_fwd tl key | ListNil => Fail Failure) ’ val hash_map_get_mut_in_list_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::get_mut_in_list]: forward function *) hash_map_get_mut_in_list_fwd (ls : 't list_t) (key : usize) : 't result = hash_map_get_mut_in_list_loop_fwd ls key ’ val [hash_map_get_mut_in_list_loop_back_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::get_mut_in_list]: loop 0: backward function 0 *) hash_map_get_mut_in_list_loop_back (ls : 't list_t) (key : usize) (ret : 't) : 't list_t result = (case ls of | ListCons ckey cvalue tl => if ckey = key then Return (ListCons ckey ret tl) else ( do tl0 <- hash_map_get_mut_in_list_loop_back tl key ret; Return (ListCons ckey cvalue tl0) od) | ListNil => Fail Failure) ’ val hash_map_get_mut_in_list_back_def = Define ‘ (** [hashmap::HashMap::{0}::get_mut_in_list]: backward function 0 *) hash_map_get_mut_in_list_back (ls : 't list_t) (key : usize) (ret : 't) : 't list_t result = hash_map_get_mut_in_list_loop_back ls key ret ’ val hash_map_get_mut_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::get_mut]: forward function *) hash_map_get_mut_fwd (self : 't hash_map_t) (key : usize) : 't result = do hash <- hash_key_fwd key; let i = vec_len self.hash_map_slots in do hash_mod <- usize_rem hash i; l <- vec_index_mut_fwd self.hash_map_slots hash_mod; hash_map_get_mut_in_list_fwd l key od od ’ val hash_map_get_mut_back_def = Define ‘ (** [hashmap::HashMap::{0}::get_mut]: backward function 0 *) hash_map_get_mut_back (self : 't hash_map_t) (key : usize) (ret : 't) : 't hash_map_t result = do hash <- hash_key_fwd key; let i = vec_len self.hash_map_slots in do hash_mod <- usize_rem hash i; l <- vec_index_mut_fwd self.hash_map_slots hash_mod; l0 <- hash_map_get_mut_in_list_back l key ret; v <- vec_index_mut_back self.hash_map_slots hash_mod l0; Return (self with <| hash_map_slots := v |>) od od ’ val [hash_map_remove_from_list_loop_fwd_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::remove_from_list]: loop 0: forward function *) hash_map_remove_from_list_loop_fwd (key : usize) (ls : 't list_t) : 't option result = (case ls of | ListCons ckey t tl => if ckey = key then let mv_ls = mem_replace_fwd (ListCons ckey t tl) ListNil in (case mv_ls of | ListCons i cvalue tl0 => Return (SOME cvalue) | ListNil => Fail Failure) else hash_map_remove_from_list_loop_fwd key tl | ListNil => Return NONE) ’ val hash_map_remove_from_list_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::remove_from_list]: forward function *) hash_map_remove_from_list_fwd (key : usize) (ls : 't list_t) : 't option result = hash_map_remove_from_list_loop_fwd key ls ’ val [hash_map_remove_from_list_loop_back_def] = DefineDiv ‘ (** [hashmap::HashMap::{0}::remove_from_list]: loop 0: backward function 1 *) hash_map_remove_from_list_loop_back (key : usize) (ls : 't list_t) : 't list_t result = (case ls of | ListCons ckey t tl => if ckey = key then let mv_ls = mem_replace_fwd (ListCons ckey t tl) ListNil in (case mv_ls of | ListCons i cvalue tl0 => Return tl0 | ListNil => Fail Failure) else ( do tl0 <- hash_map_remove_from_list_loop_back key tl; Return (ListCons ckey t tl0) od) | ListNil => Return ListNil) ’ val hash_map_remove_from_list_back_def = Define ‘ (** [hashmap::HashMap::{0}::remove_from_list]: backward function 1 *) hash_map_remove_from_list_back (key : usize) (ls : 't list_t) : 't list_t result = hash_map_remove_from_list_loop_back key ls ’ val hash_map_remove_fwd_def = Define ‘ (** [hashmap::HashMap::{0}::remove]: forward function *) hash_map_remove_fwd (self : 't hash_map_t) (key : usize) : 't option result = do hash <- hash_key_fwd key; let i = vec_len self.hash_map_slots in do hash_mod <- usize_rem hash i; l <- vec_index_mut_fwd self.hash_map_slots hash_mod; x <- hash_map_remove_from_list_fwd key l; (case x of | NONE => Return NONE | SOME x0 => do _ <- usize_sub self.hash_map_num_entries (int_to_usize 1); Return (SOME x0) od) od od ’ val hash_map_remove_back_def = Define ‘ (** [hashmap::HashMap::{0}::remove]: backward function 0 *) hash_map_remove_back (self : 't hash_map_t) (key : usize) : 't hash_map_t result = do hash <- hash_key_fwd key; let i = vec_len self.hash_map_slots in do hash_mod <- usize_rem hash i; l <- vec_index_mut_fwd self.hash_map_slots hash_mod; x <- hash_map_remove_from_list_fwd key l; (case x of | NONE => do l0 <- hash_map_remove_from_list_back key l; v <- vec_index_mut_back self.hash_map_slots hash_mod l0; Return (self with <| hash_map_slots := v |>) od | SOME x0 => do i0 <- usize_sub self.hash_map_num_entries (int_to_usize 1); l0 <- hash_map_remove_from_list_back key l; v <- vec_index_mut_back self.hash_map_slots hash_mod l0; Return (self with <| hash_map_num_entries := i0; hash_map_slots := v |>) od) od od ’ val test1_fwd_def = Define ‘ (** [hashmap::test1]: forward function *) test1_fwd : unit result = do hm <- hash_map_new_fwd; hm0 <- hash_map_insert_fwd_back hm (int_to_usize 0) (int_to_u64 42); hm1 <- hash_map_insert_fwd_back hm0 (int_to_usize 128) (int_to_u64 18); hm2 <- hash_map_insert_fwd_back hm1 (int_to_usize 1024) (int_to_u64 138); hm3 <- hash_map_insert_fwd_back hm2 (int_to_usize 1056) (int_to_u64 256); i <- hash_map_get_fwd hm3 (int_to_usize 128); if ~ (i = int_to_u64 18) then Fail Failure else ( do hm4 <- hash_map_get_mut_back hm3 (int_to_usize 1024) (int_to_u64 56); i0 <- hash_map_get_fwd hm4 (int_to_usize 1024); if ~ (i0 = int_to_u64 56) then Fail Failure else ( do x <- hash_map_remove_fwd hm4 (int_to_usize 1024); (case x of | NONE => Fail Failure | SOME x0 => if ~ (x0 = int_to_u64 56) then Fail Failure else ( do hm5 <- hash_map_remove_back hm4 (int_to_usize 1024); i1 <- hash_map_get_fwd hm5 (int_to_usize 0); if ~ (i1 = int_to_u64 42) then Fail Failure else ( do i2 <- hash_map_get_fwd hm5 (int_to_usize 128); if ~ (i2 = int_to_u64 18) then Fail Failure else ( do i3 <- hash_map_get_fwd hm5 (int_to_usize 1056); if ~ (i3 = int_to_u64 256) then Fail Failure else Return () od) od) od)) od) od) od ’ (** Unit test for [hashmap::test1] *) val _ = assert_return (“test1_fwd”) val _ = export_theory ()